Coal Mine Methane Flaring: Technology and Case Studies

430 R 20 004
Coal Mine Methane Flaring:
and Case Studies
Updated January 2021
u.s.lpa
Coalbed Methane
/OUTREACH PROGRAM
About the Coalbed Methane Outreach Program
Since 1994, the Environmental Protection Agency s (EPA's)
Coalbed Methane Outreach Program (CMOP) has worked
cooperatively with the coal mining industry in the United
States and other major coal producing countries to
reduce CMM emissions.
Learn more at: www.epa.gov/cmop
Contact CMOP at:
www.epa.gov/cmop/forms/contact
us about coal methane outreach
Introduction
Worldwide, coal mines produced an estimated
967 million metric tons of carbon dioxide in 2015,
about 8 percent of the world's anthropogenic
methane emissions.1 Methane emitted from coal
mines presents a critical safety hazard for mine
workers, especially at underground mines, and is
an important source of greenhouse gas (GHG)
emissions.
Technology is readily available to recover and use
methane, the major component of natural gas,
from coal mines. For instance, gas removed in
advance of mining, known as "drained gas," is
often very high quality (i.e., high concentrations
of methane with low impurities) that can be used
in typical natural gas applications such as
pipeline injection and power generation, and as
boiler fuel.
Although utilization of coal mine methane (CMM)
is the most effective use of this resource, it may
not be economically practical to do so in every
case. In some instances where end uses are not
economic or available, the destruction of methane
through enclosed flaring may be the most
appropriate option for reducing GHG emissions
and mitigating CMM-related mine hazards. Flaring
CMM may serve as an intermediary stage for
achieving emissions reductions prior to, or in
combination with, the operation of a full-scale
CMM utilization project.
This document presents information related to
CMM flaring. For more information on CMM
utilization, see the CMOP Coai Mine Methane
Recovery Primer.
Disclaimer: U.S. EPA is providing this information for educational purposes only and does not
endorse or support any specific technology or project.
U.S. EPArf
Coalbed Methane!
Exhibit 1. Enclosed flares have been used by the coal
industry at underground coal mines for over 20 years
• Flares have been deployed at underground coal mines
since the 1990s.
• As of 2021, the Global Methane Initiative's (GMI's)
International CMM Project List identifies nearly 30 global
CMM projects where flaring has been practiced.
• Flaring projects are operational in seven countries,
including the leading four countries in terms of global
CMM emissions: China, the United States, Russia, and
Australia.
1 U.S. EPA. 2019. Global Non-C02 Greenhouse Gas Emission Projections & Mitigation 2015-2050. EPA-430-R-19-010. Available:
https://www.epa.gov/sltes/production/files/2019-09/documents/epa non-co2 greenhouse gases rpt-epa430rl9010.pdf.
www.epa.gov/cmop
1

-------
Planning for Flaring CMM
When methane utilization projects are not economically viable, flaring CMM can be an effective strategy
for reducing GHGs and mitigating CMM-related mine hazards. Conditions in which flaring could be an
appropriate strategy for a mine include:
• Gas is stranded at remote wellhead locations.
• Logistic or economic issues exist with transporting the gas.
• Mine operators are interested in an initial GHG mitigation option prior to operation of an energy
recovery facility.
• Mine operators are interested in using enclosed flares alongside methane utilization projects,
enabling them to mitigate methane emissions that exceed the capacity of the utilization
equipment or during project downtimes.
Compared to many energy recovery projects, enclosed flares offer the potential advantage of
shorter planning, design, and installation schedules. They also typically have much lower capital
and operating costs (e.g., the capital cost of a typical CMM flaring project can be just 5-10
percent of the cost of a CMM electricity generation project).2 However, revenue sources for flaring
projects are limited to GHG emissions reductions markets.
Flaring Technology
The technology for flaring projects is well-established and widely practiced. There are two general
designs: open or "candle stick" flares, and enclosed or "ground" flares. Early projects utilized open
flares because they were common in the oil and gas industry. However, enclosed flares are now the
industry standard because they are designed with the important safeguards that are required at
underground coal mines such as detonation and flame arresters, temperature sensors, and real-time
monitoring. The safety risks of enclosed flares are comparable to those of a CMM-fired boiler. In addition,
enclosed flares typically have higher destruction efficiencies. The costs associated with enclosed flares
are generally two or three times higher than for open flares.
CMM Flaring Case Studies
West Ridge Mine (Utah, United States of America)
The flare at the West Ridge Mine was installed after the coal mine
was abandoned in 2016. Global Carbon Strategies, the project
developer, commissioned the project in March 2018. Mine methane
from the site's gob wells is considered stranded gas, since it is
located more than five miles from the nearest electricity
infrastructure. Using 2 methane-fueled extraction units, the project
recovers methane from 3 gob wells via a 10-inch-diameter
gathering pipeline. The abandoned mine methane is sent to an
enclosed flare manufactured by Perennial Energy, which has a
capacity of 72 million British thermal units/hour. The flare has
successfully operated over a wide range of methane
concentrations, from 25 to 70 percent. The West Ridge project is
especially notable because it safely operates at a remote site
located above 7,000 feet in elevation and without access to grid-
based electric power. Also, mine methane is used to generate the
onsite power for monitoring equipment and communications.
2 See CMOP's CMM Project Cash Flow Model to generate example costs. U.S. EPA. 2019. CMM Cash Flow Model. Available:
https://www.epa.gov/cmop/cmm-cash-flow-model.
Exhibit 2. West Ridge Mine Flare
(Courtesy of Global Carbon Strategies)
www.epa.gov/cmop
2

-------
MIMOSA Mines (Mexico)
Minera del Norte S.A. de C.V. (MIMOSA), a leading coal
company in Mexico and a subsidiary of Grupo Acerero del
Norte (GAN), began operating the first CMM flares at active
coal mines in Mexico in October 2013. The MIMOSA flaring
project was registered as a Clean Development Mechanism
project, and destroyed mine methane from gas drainage
systems at two of its mines in northern Mexico: Mine VII
(Sabinas Basin) and Esmeralda Mine (electric power
generation project in the Saltillo Basin). The projects
operated successfully for about seven years through 2019.
They were decommissioned by MIMOSA in 2020 following
closing of the mines.
The flares, manufactured by Biogas Technology Ltd., are sited
at fixed locations (i.e., they are not portable) and are
enclosed flares with a combined air throughput capacity of
4,000 normal cubic meters (Nm3)/hour (two 2,000 Nm3/hour
units).
Exhibit 3. MIMOSA Mine Flare, Mexico
(Courtesy of M. Santillan Gonzales, GAN)
Duerping Mine (Shanxi Province, China)
The Duerping Mine, operated by Xishan Coal &
Electricity Company, a subsidiary of Shanxi Coking
Coal Co. Ltd., is located in the mountains just west of
the City of Taiyuan in China's Shanxi Province. Since
2008, the site has operated a 5,000 cubic meter/hour
enclosed flare.
The flare was initially used as an interim emissions
reduction option before 12 megawatts of gas gensets
were installed. Now the flare destroys drained gas
volumes in excess of those utilized by the gensets, or
gases with concentrations less than the permitted
minimum (currently 30 percent) but higher than
25 percent. Approximately 20 percent of the drained
gas is expected to be flared.
Exhibit 4. Duerping Mine Flare, Shanxi Province, China
(Courtesy of Sindicatum Sustainable Resources)
Resources
To learn more about flaring CMM, please consult the following resources:
• U.S. EPACMOP: www.epa.gov/cmop
• GMI Coal Sector webpage: www.globalmethane.org/coal/index.aspx
• International CMM Project List: www.epa.gov/sites/production/files/2016-05/coalproiectlist.xlsx
• United Nations Economic Commission for Europe "Best Practice Guidance for Effective Methane Drainage and
Use in Coal Mines":
www.unece.org/fileadmin/DAM/energy/se/pdfs/cmm/pub/BestPractGuide MethDrain es31.pdf
www.epa.gov/cmop
3

-------